Abstract
Megathrust subduction earthquakes generate intense ground shaking and massive tsunami waves, posing major threat to coastal communities. The occurrence of such devastating seismic events is uncertain and depends on their recurrence characteristics (e.g. inter-arrival time distribution and parameters) as well as elapsed time since the last major event. Current standard probabilistic loss models for earthquakes and tsunamis are based on a time-independent Poisson process and uniform earthquake slip distribution. Thereby, considerations of more realistic time-dependent earthquake occurrence and heterogeneous earthquake slip distribution are necessary. This study presents an innovative computational framework for conducting a time-dependent multi-hazard loss estimation of a building portfolio subjected to megathrust subduction earthquakes and tsunamis. The earthquake occurrence is represented by a set of multiple renewal models, which are implemented using a logic-tree approach, whereas earthquake rupture characterization is based on stochastic source models with variable fault geometry and heterogeneous slip distribution. By integrating these hazard components with seismic and tsunami fragility functions, multi-hazard loss potential for a coastal community can be evaluated quantitatively by considering different possibilities of earthquake recurrence and rupture characteristics. To demonstrate the implementation of the developed time-dependent multi-hazard loss model, the Tohoku region of Japan is considered.
Highlights
Quantitative multi-hazard loss estimation against major earthquakes and tsunamis is essential to make effective risk management decisions in seismic regions where risk potential due to megathrust subduction earthquakes is significant
This study addresses the above-mentioned research gap by developing a novel multi-hazard earthquake-tsunami catastrophe model of residential houses in a coastal community subject to time-dependent occurrence of megathrust subduction earthquakes
Shaking and tsunami hazards caused by megathrust subduction earthquakes are time-dependent
Summary
Quantitative multi-hazard loss estimation against major earthquakes and tsunamis is essential to make effective risk management decisions in seismic regions where risk potential due to megathrust subduction earthquakes is significant. Buildings and infrastructures located in coastal areas are exposed to a sequence of shaking-tsunami hazards (Maeda et al, 2013; Selva et al, 2016). Shaking damage occurs widely in space, while tsunami damage is localized in coastal areas (Goda and De Risi, 2018; Park et al, 2019). It is important to consider the multi-hazard loss generation process because the damage patterns for shaking and tsunami are different. Earthquake occurrence is one of the most influential components in probabilistic seismic hazard analysis (PSHA) and probabilistic tsunami hazard analysis (PTHA)
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